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Field | Value |
---|---|
Gene ID | LotjaGi2g1v0402600 |
Transcript ID | LotjaGi2g1v0402600.1 |
Lotus japonicus genome version | Gifu v1.2 |
Description | DNA polymerase; TAIR: AT5G67100.1 DNA-directed DNA polymerase; Swiss-Prot: sp|Q9FHA3|DPOLA_ARATH DNA polymerase alpha catalytic subunit; TrEMBL-Plants: tr|G7K6L8|G7K6L8_MEDTR DNA polymerase; Found in the gene: LotjaGi2g1v0402600 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr2:89995542..90008176) extracted from Lotus japonicus Gifu genome v1.2.
GGAATGCATTAGGCCTAATACTATACTATTAAGTTTACACACGTTACGAGATAACTGGAAAATACAAATTCGAATGAAGC CCAACTAATTCCCATTCCCTTCGCGCCAAAAATGAAACATTTCACGCGCCTTGCTTAAAAAACCCCTAACCGCAGCAGCA ACACGCACCGCCAAGAGAGATGGCTGATGATGAAGCTTCCAGGAAGCGAAGGACCACCAGAGGCCCCGAAGCCACCGCCC GCAGCCAAGCCTTGGAGCTCCTTAAAGCCTGCCGTGGCGGTGGCCGCAGATCTGACCTCGCCGGACCCCAAATCAAGTTA GAAAACCCTATCTACGACACCGTCCCCGAAGACGAGTACAACGCCCTCCCCCTCGCCGCCAAGCGCCGCGAGCAAGCGCA AGATTTCATCGTCGATGATGATGGCCTCGGTTACACCCTCTCCTCTGAAGACGAATCCGATGGTGAAAATCTGGAGAATC CCAAGTGGAAGAAGGATCACCAACCTAAACGGCCTTCTGTTTCTTCATCATCACTCTCCGCCGCCGCAGCCGGCACGCAG AGGCTGTCGTCCATGTTCACTTCCTCGAATTTCAAGAAGAAAAGGGACGACAAGGCCAGCGAGAGCATCGTTGATGACGT TATTGCAGAGTTCGCACCGGATGAGAACGATAGGCTGAGGCGCAGAAGGGCTAAGCCATCTGCTGATTCTATTAGGGCTT CTTTGGTGTCTGGAAATTTTGCAATTGACAATGCCGAGCTAATTAGGGCTATTGAGAGCAAAGGTTGTGACTCGGGTTTA AAGCAAAAGTGCGAAAAAGAAGTAGAAGTGAATGTAAGTTCTGAAAATGTTCAGGCGCCACCACCCCTAAGTAGTGAGGG TTTGAGTGAGGATAGTGTGGTGAAGGATATTGAGATGGAAGAACGACCAGCTCCGAAAAAGGAGGTTTTCACTTTGAATG CGAAAGTTACACGAGAGGAGGATTCGGCCGCGTTGAGTGCTACTGCCGGTTGGCAGGAGGCAAAGAGTAATGCTGGAGGA GGGGAGATCAATGCTGCTGTTTCGAAGGATGATTTGTCCGCAGAATTGAGTTTAGAGGCAGATGGATCGCTGCCATTTTA CATACTAGATGCCCATGAGGAGTTTTATGGAGCCAATATGGGAACCATTTATTTGTTTGGGAAGGTAGTTTTGTGGTTCT GAATTTCTATTTTTGATTGTTGAGTTCCCTTGCAACTAATCTTATAATTTGCTCTATGCTACCCACTGCCTCATTTTATA GTCTCCTAAGAAAGCATATTGTTCACAATTAAGTATATCATGACATTTTATGTCTCTTGCCCCGCTATTTGTTGCTCTCT TATTGTGCCCCTATTATTGTAAACATCGTCTCACAGCCAGTGATACTTCTTAATTGTTTGCTCTTAGAGTATAAGCTTTT TTCCTCTATTCACATGATGCTTATTCTCATATTTAGTTAACTTGAATCTAATTGAAGTACCTTTCGATTCACAATGCATG ATGCTGCATATGTTTTCCTTCACTCATAATATGTTAGTTTTCTAGTGTCCTTTTTTTTTCCCGTTGATGTGAAACAGTCA GTTTTTCATTTCTGCCAATGAGTGCCTTACTTGAATGAGGGAAATGGCATTGACTGTTAGCATTTTGGTTAGGTGAAAAC AGGGGATTTGTATCAGAGTTGCTGTGTTGTTGTGAGGAACATGCAGAGATGTGTCTACGCAATCCCTAGCCGTCCTTTGC ATTACACTGATGAGATAATGAATCTTGAGAAACAAGTCCAAGAGTCTCGAATTTCTCCTGCAGATTTCCATAAAAAACTG CAAGTAAGTTATTACTTTGTTGACACCTGGTTTAAATTTATATCATATTTTTGTTATTTTCATTTAGCTTGAATTCTTCC CATATTTCTGCCACCCTGGGGTTTATACGTTCTGTGTTCTTTTTTCTTTTAAAATTTTAGGATTCTGTATCTGATATAAA GAATGAGATAGCAAGACATCTTGTGGATCTGAACGTTTCTACCTTTACCATGGTGCCGGTTAAGGTTTGCTGAATAAAAC ATTCCAATGTCTTCAATGCATGAATGAGTTATGTGATGCTTTTCTGCTATATACATTTATTGCTGCTCTTTCTGTTCTGA TTTTGCCTGTTTTTGCAGAGAAAATATGCATTTGCACGAACTGATATTCCAACTGGTGAAAATTATGTGGTGAAAATAAA TTATCCGTTCAAGGTACATTATTAAGTCTATTATTGACATTATCAATCAAAAGAGAGAGGGAGAGAAGAATGTCAAACTA TATATTTGATATTTCCACTTGTTGACGTTAAAGACTTATGTAAACACTAAAGCTGCCTCCTCTCCTGTTAAAAATTATTT TCTAAGGATAGAGCATGATCTTGTTATGCAGGTATAATTTGTTTTGATCTTTACAATATTTTAATCACTGCAGGATTCAG TACTTCCTGTAGACCTCAAAGGAGAAAGTTTCTGTGCTCTTTTAGGGACTCATTGCAGGTATTATAAGCATTCAGATTTC AGAGACTAACCTGTGTGATGTTCTGGATATTATGAGATCAAGCAACTTGTAGGAAAAAATTTTGTTTTCACAAGTGATTA TTATGACCTTTTGTGATGATACTTAAAATCTCTTTTCAATGGTGGCATTCTGGTTCAGTAATTCTGGACATTTAAACCTG TCATGCATCAGGGAATCCTTGAGGAATTATTTTGACAGAACCCTGGAGATTTAATTTTGCAAAGATAATTAATGTCTCAG TAAATATGCATTTGAAATACTTGCCTGACACATGAGTTGATTTTTTTTTTTGGGTGTGAGGAACTAACTTAATTCTAGAA AGTAGAAAGTATGGAACTTCTTTATTGGTGATGAAAGTTGTAACCTTCTCGAAATGAATTCTGTATTTTAAAATTTAAAT AGCTGAGCTGCAGGGAAGGGCTTTCCAAAATGCTTTGTTGGCTCTAAAATCTTTTAATTGTGCTAAGAGTGGTTGTAAAT TGAATTATTATTGTCTGTTAGAAAATCTAGTAGCCGACCTCGCTTAGTGAGATAAGGCATTTGTTGTTAGAAAATCTAGT AAACTGACTGTATCACCATTCACCACTTGCAGGGCACTCGAGCTTTTTTTGATTAAAAGAAAGATAAAAGGGCCTTCATG GCTACAGGTTTCAAACTTTTCTACACGCTCAGCTTCTCAAAGGGTGAGATTCTTAAGTTGGACATCTACTGGAAGTAATG TCTATGATATTGAGCCCGTTTAGATCCAGACCAAAAAGCACTTATTGGAGCTTCTTGACTAAAATTGCACTTAAAATGCT CTGATAAGTGTTCTTTGGTCCACTTCCAAACCGGCTCATTGTCTTCAATTCTATGTAGAGGGGTACCTTTTTACCTCTTT TTTTAATCTTAGCTTCTTTATGCTCGCAGGTTAGCTGGTGCAAATTTGAAGTGACTGTTGACTCTCCTAAAGACATAAGG ATTTCTCCACCTTCCTTAAAAATCACTTGCGAGATACCTCCTGTTGTTGTCGCGGCGATAAACTTGAAAACCACCTATGA AAAGCAGAACATAAATGAAATTGTATCCGCATCCGTTGTCTGTTGCCATATGGTCAAGGTTGTTTAGAGTGCTTTTTTAG TGTTTGGATTTCTAGCCATCACTTTGATTTTGTTACACACTGTGTAGTTTATCTTTTCTCATGAGTTGAAGTGCACTAAT ATGTGTATGCCCATGTGTGCACGCTTCTAAATATTAACACATTTGTATATACAAATCTATTTGTCAGAAAGAGTTGATTT ACTTTCAATATTCTTATCGAGTTTGAGTATGGCTGACAGCATTATTGAATATTTGCCACTTTGTATGTTAGATATTTCTT TGCACATGATAAGAATATTCAGAGCTACATAAATACATTTTGAACTCGAAAGTTATCTTAAATTTTTGGTTATGATACCA AACTAATGCTTATTGCATAGATGAGTTCAGTTTATGAAAAACCCAAATATTTTATTTGATTAATGTTATTGTTGATGTAT ATGGATGTTCAAAATATGTAATATGGTTTCAACTTAGTCTCATGTTCTCTCATCATTGACATTAACCTATGCCAATACAA AACATGAAGTTTCAAGAAATCATACTCAGTTTTATGTGTTTAAATATTCAGGCTGACGTGATATTTATTTGTAAGGTATT ATTCAACGAACAATAAAAATACAGTTTTAATTTGTTTCTTTTGAACTTTTGGCAATTTGTTGGAACTTATGGTGATTGCA GGTAAACTGAATTCTTAATTTAGCATGCTCGTGCTTATAAAAAGTCCGACAGTTGGGCTTGACTAGGCTTGTTGGTAAAT CATCTGAGCTGATACAATGGGCATTGTTGTGAATTTTTTGTATTTCACAAAGCTTAAAACAAAAAGAAGCTTGACTCAAC ACTTTTTTAGAGTGTGTGTAAATGTGAATTTATGACCTTGCTGGCTGCTTGAATATAATTATCAACTTTTAAGATATTTA CTGGTTATCAACTAATGTGGAAATATGATCAGCAGTAACCTTTCCTGTTTGACTTTTTAGATTGACACTCCTATGTTGGC TTCAGAGTGGAAAAGTCCTGGAAAGCTTACCCATTTTACTGTTATTCGTCAACTTGATGGAAATGGATTTCCTCTGGGAT TCAATAAGGAGGTTAGGGACAGAAACACAAAAGCAGGGTCCAATGTTGTGTATCTTAAAAACAGGTAGAAACTTTTGATA TGTTGCTAGTAGTTCTCGAGTGTTATCCTTTGACTTTAATAATATTATGTTATCCTAAACTAGTTCATTTTTTTCTTGAA AATTATATGCTTGCTTCTAGGGCTGACCTCTGACCTATGTATTGACTTTTCTTACAGTGAAAGTGCTTTGTTAGATTGTC TGATGTTAGAATTACACAAGTTGGATAGTGATGTCCTTGTTGGACATAATATTTCTGGACTTGACCTGGATGTCCTTCTC CACAGATCCCAGGTGGGAATTTTAGCTTAAACAGTTTATTTTCATTTATATTCTATATCGCCTTTTCACTCGGAATAGTA ACAAAATGAGAAATAATTGGTTTGAACAATTACATCACTCATATATTCCTAAGGTAAAAAATAGTATGAAAATTACCTGA AGACCAAAATTACTTTGTTAGAGGCTTAAAGCTGAGTAAGATGGATATGTTTGGAAGATGACTTGTTCAAAATGCAGCTT CAGACCATATTAAATGGAGTATTAGAATTCACGTGGGGGTCTGAAATTTGTTGTTTGATTTTTTGAGCTCAACAACTTCA ATTTTTTTCCTGAATTTCCAAATACGTTCCTGGTTTTGTTTTCATCATATGTGGAAGGAAGTGGCTCTGTGGCTGTCATT GTCCTAGAACTGTCCATACATATAAATTCTTTTATGTGTAGAACATTATGCTTTTCAAAATCAACAATCTGCTGCTTTCC ATCCAACCTGCATTTTACACTTTGGACGAGCTGTTGCACCTGTGCAGGCTTGCAAAGTACCGAGCAGCAAGTGGTCTAAA TTAGGTCGTCTCAACCGTTCTACGATGCCTAAGCTTTACAGAAGAAGAAAAACCTTTGGTTTTGGAGTTGATCCTGGTAT CATGTCTTGTATTGCTGGTCGGCTTCTTTGTGATACCCATCTGAGTTCCCGTGATCTATTAAAGGAGGTAAAAAATTTGC TCAGAAACCTTGCATAGCAGGAATTTAGTTTTTTTATTCTTACTAAGTACTAACTTATCTACATTGATCTTACCAGGTTA GTTATTCCCTAACTCAGCTTGCAAAAACACAGCTGAACAAGTTTCGGAAGGAAGTTGCTCCACTTGGCATTCCAAAAATG TTCCAAACAGCAGAGTCCCTAATGGAGCTTGTAGGTGCCAGTGTTCTCAAACAGCTTTTTCTTTTAAATTGTTGAGAAAA CTATTTGAAGTGCCTCATTGTGCAGGTCAAGCGTTGATTCCTTTTTCAAATGATAAACATCTCATTTTATGGACACTTTT TTCCCAATTATGATTTTCTGTATCCCTAAATATGGCATTTGTAATGGTTGTTGAATCTTTGCGCTAATTTTCCTGTACTT GTTGACATTAACAGTGGTCTGAACCTGATAATGCTTGTGGGCTAACTATTTGATGTGTTTAAACTTATAGTGAGACATAG GTAGGGATCAGCACTATGGAATGTCTAAAGATTATAATGAACAATGCAGAGTTTGCTGACTTCAGAATTAAAATTGAAAA GTTATCTGGTCTTCTCAACTTGTCTTGAATCTTGATATTGTTTTGCAAAGTTGAACAATGGACCAAACAACTTACCTTTG CCATTTGGAATGCTTGATTGATTGAACTTGATAATTAGTGTATATGCTTTTGTGCTGGTTGTCATAGTATTCTTGATTTG GTCAGATTGAACACGGTGAAACAGATGCATGGTTGTCTATGGAACTCATGTTTCATTTGAATATTCTTCCGCTCACACGT CAGCTGGCTAATATAAGTGGTAATCTGTGGGGAAAAACTCTTCAGGTGAGCCCTCATAGCATTTATTTGCTTGCTTTCTT AATTTGATATTGGACATGGCATAGAAGTTGGAGGCTTATGTCTAATGTTTTCCATTTCAGGGCGCTCGTGCACAAAGTGT GGAGTATCTTTTGTTGCATGCTTTCCATGCAAAGAAATATATTGTGCCAGACAAGTTTTCAAATCATGCAAAAGAAACAA AATTGACAAAACGCAGAGTAACTCACGGTGTTGATGATGGCAACTTTGATGAAGCAGATATTGATGATGGAATTGGAAAC TACCATAACGATGCTTCTGAAAGTATTCAGAAGAAAAGCAAGAAGGCTTCTTCCTATGCCGGGGGGCTGGTTTTAGAGCC AAAGAAGGGTCTTTATGACAAATATATATTGCTTCTGGACTTTAATAGCCTTTATCCTTCTATCATTCAGGTTGATAACA TTCTCTCTAAAATATGCTTTGTTTTAGTGTCACTTTCATTCTACCTCGACACTGTCTTCTTAATTTACTTATCTACTTTG CCTCTAAATAGTCCGTTTGTACTATTTGCAACTTAATAATGAATTACAGGAATACAATATCTGCTTCACAACCGTTGAAA GATCTTTGGATGGATCTTTTCCTTGTCTACCTTCTAGTAAAACAACTGGAGTCTTGCCAGAGGTAAAATTGCACGGACAC AAGCCACTTTGTCTTTTGAATCTTTTTCCATGAATTTTAGGACTTGTAGATTGTTTTGATTTATGTATGTTGTTTCCAAA AATATTTAAACATGGTGTTTTTCAATATGGTGCTCCCTAATTTAATGCATTGCAGCTTTGGCTAGTTAGTCATTTTTTTA TCAGAGCATGGAAATTGTTATATTATCAAGGTCTGATTGCATAAGAGTTGGGGATGCGTTTATGCTAAAATAGTTTCTAT TTCGTTGTGTGTGGATAGATATTCTAGAGCCTTCCTAATCTTGTTTGTTTCTACCTTAGCTTCTCTTTTTATTTCTGTGA CCAGCTTTTCAGTGTGGATTTGTCAAGTTTAGTGTTTGAAAATCTACTAAATCAGAAAAGGACTCACATTTGGGTTGCTA TGATATGACTGTTAAATTGAAAGTTGATCTGGAAGGTGGTGAAAAATTGACCTGATAAAGATGATCATTCAGTGTTGTCC TGGTTGGAGTTGGGGATATGTGAGACAGAATCTTAGGAATTTCACGTACATATACAGAGCTTAAATTTCAAATTCACAAT TTTGGGCTAAAAATGCTGCTAAAAATAACTTAAAATTTTAATTGTTCTTGTTTTGAAACATAACAGATCATGATAAATCA TTTAAATATCTCCAAAAAATACTGTATTGGAATTTCTTATCAAAACTCACATCTTCTGTACCAACGCTGACCTAGAATGG CACCTCCAACATCCTTGAATATTTATTTGGAAGACTTCATGTTGATCAAACTTGTATATCTGTTTTCATATGGTTTATCA ATGCATTAGAAATTTGAGATGGTTTTGTAAAGTATACATGGGCAATTTTCGTTCCCCTCATGGAGGCTGCTGAGATTCGA TGCATATGTATATTTTTAACTTTTTGTTGTGCTAGTTGCTGGAAAATCTGGTTGAAAGGAGGAAAATGGTAAAGTCATGG ATGAAGGCTGCATCTGGTCTTTATTATCAGCAACTGGAAATTCGGCAACAAGCACTGAAGCTTACTGCAAACAGGTTTGT TTGATTCTTTTCTTGCCTCCAGTTCTACTGCCCAAATAGGTATTTCATTCTTCTTTCTTTATGTAAAACCTTATGCTGCA TGGTGCAGTATGTATGGTTGCCTGGGATTTTCCAATTCCAGATTTTATGCAAAGCCACTAGCTGAGCTCATAACCCTACA AGTAAGAACATATGCTTGCTTATTCAGCATAGCCAGTGATTCCCATACTATCAAATATAATTGCGAACACATGCATTTTC ATTTACATGGCTGATGATTGTACAGGGAAGGGAGATATTGCAGAGTACTGTTGATCTAGTTCAAAATAACTTGAATTTAG AGGTTATTTCTACTGGACTTCATTTTGTGTATTAAGGGATTTAGTATTTATGAGAATTATTTCACTTAACTGGTTGAGAA TATTAGCTCTTAATTGTTGTACTGTCTTCTATTTTATAGGTGATCTATGGCGATACTGATTCAATAATGATTTACAGTGG GCTAGATGATATTGGGAAAGCAAAGGCATTAGCTGGAAAAGTTATTCAAGAGGTAAGATTTAACTATTAGATGTGCGAAG CTCCTTTCAACCTACGTAATAAACTCATGGTCATTGGGTTGGAGTTGATTTTGACCTCTGCTCTAATCTTGTGCAACATG GCATGTTAGAGCCAGAGCCAGGTTTCCAGCCTTGTTATTCCCCCTATGAAATATATTTGATTTTTTTATTTGGACTTCAA ATTTATAGAGCATTTTAAATTTTAAATATTCATATTTCTTGGATATTGACATAAGTGACAGTGGGTTCTTTTATGGGATG TAGAGTTGGACTCCTGCCATGAGGTCTTACCATGTTGGTTGCACTATTTACTATTATAGATGATTTTTGGCATGTTTGCA TGTATAAAGAATGCATGGTGGTCTTCCTTCCTAGTTTTCTTTATTCATCCAAAATTCGTGATATGTGATTCCTCCTTGCA TTTATCATCAGGTCAATAAGAAATATAGGTGCTTGGAAATTGATCTTGATGGTTTGTACAAGAGGATGCTCCTTCTTAAG AAAAAGAAGTATGCTGCTCTAAAGGTGCAGTTTAAAGATGGAAGTACCCCATATGAGGTATACTTACTCTCTTTTTTTAT TACCTAACATTGGGAAGAACAGACCAGTGAGATTAATGTATGCTGCAGGTTATTGAACGTAAAGGTCTTGACATTGTTCG TCGTGACTGGAGCTTATTAGCTAAAGAATTGGGAGATTTTTGCTTGACTCAAATTTTGTCGGGAGGGTATGTTATTACTT TCACGGTTTCACCCAATCTGGCTATTGTAGACGCGGATTCACTCACTTATCTAGTAATTGATACTTAATAGCACGGCTCC CATGCTTTCAGGTCATGTGAAGATGTGGTTGAATCAATTCACAGCTCTCTCATGAAGGTAAATTGTGATATCTTGCAGCA TCATGCATTTGTTTATAAACAACCTATCATGGGATTGGGGAATTCAATTGGAAGATGCTTAAGGGCGTAGGGTAGGGATC TGAACACCTTGCTGATGAGTAGAATGAAATTGGAGGATGGTCTGATACCCAGAATGCCTTGCTGCATATCCAAATTTGAT TGTATTCGTCATCAGTGGATGTTCCGGAGTTGGTTTTTGTTAACTGTCTAATTAATTATCAATATTAGGAGAGGGCGTCG AAGTTTTTTGGGAACTATATTCTATTCTATTTTGCCCTTCATTCGAGGTTTATTTATCCTGCAAACTGAACAATAATTTT AATACAGGTGCAAGAGGAGATGAAGAACGGTCAAGTACCATTGGAAAAATATGTCATCACAAAGACATTGAATAGTCCTG ATGCCAAAAGCCAGCCACATGTTCTTGTGAGTCCAAGTTATTTGAACTTTTCTTTTATGTGAAACAGTCTGATATATGTT TTCTTTTGATCTACTAAATTCTGATGAAGCCTTTGATTAACATACAGGTGGCACAAAGATTGAAGCAGCAAGGTTACTCC TCTGGTTGCTCTATTGGTGATACCATCCCTTATGTAATTTGCTATGAGCAGGTTTGTCATTAAGTTGCTCCCAATGATAG GCCAAATGGTGCAACTTTGAAAATATTTTATTTGCATTGGTATTTGATGTTTTGCCATATATGCTGTCTCTTGTCTTAAT ATTTTTAGTTTGTTCTGCTTTGAGTAGGGTGGTAGTTCAGGCAGTGCAACGGGTATTGCTCAACGTGCCAGACATCCTGA CGAACTAAAACAAGAACAGGGGACATGGCTAATTGACATTGATTACTATTTATCACAGCAGGTGTTTGATACATTAGCAT CTTATTCTGTAAATAACAATGATTGGCAAAGTACTGTACCCTGCTTGAGTATTTTCATTTTTCTCTTACAGATTCATCCC GTGGTATCACGTCTTTGTGCACCAATTCAGGGCACAAGCCCAGAAAGACTGGCTGAGTGTTTAGGGCTTGACACATCAAA GGTAAAACTTAGTTCTTGCTTTGTCTCGGCATTCAGAGAATCAGGTAATGTTTGAACTATCGTTATATATCATAGTTCTC CTGAAATATCCAAACTATATTTTTTCAGTTTCAACATAAATCAAGCGAAGCTTCAAGTGTTGATCTTACAAGCTCACTCA TGTTTGCTGCTGATGACCAGGAGAGGTACATCTTGTTTCTTAAATTTGTGCCATTAATTGTTAAGTGCGCACATTTGCTA CCAATGCTAATTTGGAGATAGGCACACAATTTTCTCTCCCCCCCCCCCCCCCCAATGTTTACTAACTTCTTGCCAAGATT TAAGCTAGTCGTAGAATTTTATTTTGAAGTTTGAGCTTCTTTATCTATCTTTATATTTGTTAATTTTTTACTGATGGGTT TCCCTACCACTAATTATAATTAATGGATTGAATTTGATAAAATTAATTGCAGGTATCGGGGATGTGAGCCGTTGGTCTTG TCATGCCCCAGCTGCTCTGGTACTATTGACTGCCCACATGTGTTAAAATCCAGTGAAAAGCCATCCAGTTCAGGCACGGA GGAATCTGACTATAATTTTTGGCGTAAGCTTTGCTGTCCTAAATGCCAAGAAAATGGGGGTGGTAGAATTTCTCCTGCAA TGATCGCCAATCAGGTTTAACAAATTTCAAAGGCCTCTGAAATTATGTTGTTTATCTGCATTTCAGCTAGGAGGGTTTTT ACACTGCTTTCAGATCATGGATCATCTTCTAAAATAGATTAGTGTAGTGACATTTATTAACATGTTTGTTGATTTTAGTA AGCATAGAATATTGTTCCTGATTATCTTCTTATATAGTTCATCATACTTAATATCAGGTCAAAAGACAAGCAGAGAAATT TGTTTTAATGTATTATAGAGGTTCATTAATGGTAAGTCACCTCTCTAAAGTATATTATGAAAATTCATAGCCTGTGAAAA TTAGATGTCACCAACCTAAGCTGATTTTGCATCCAGTGCGACGACGAGACGTGTAAGCACACAACGCGAAGTATCAGCCT TCGGTTGGTTGGTGATTCTGAAAGCGGAACTGTTTGTCCAAATTATCCTCGCTGCAATGGGCGACTCTACAGAAAGGTTT CACTCAATAAACCTGTTGATTATAACTAGTTTTTTCATATATCTAATTTATATTGAATGAAATTTTAATGCGTTGGTTTT ATGAATTCACTGACCAAATATTTGTTCAATTTTCCAGTACACTGAAGCAGACTTGTACAAGCAACTCTCATATTTCTGCC ATGTATTCGACACTGTTAGTTGTATAGATAAGGTACTCACTAAATGTTACGAGGAGATTGCAAACAATTCAGATTTTAAA CAGAATTTGTTAACTGTGTTGTTAATTATTAATAATGTTTTTGCTGGTTCATGTTTATAATTTTGCAGTTGGAGGCAAAA TCTAGGATAACGGTAGAGAAAGAGTTGATCAAAATTAGGCCGATAGTTGATCCAATAGCATCAACAGTACAGAAGATCAG GGACCGTTGTGCCTATGGTTGGGTGAAGTTGGAGGACCTGACCATTACAGCATAATTTGCAAATTTGATGCTTGCTTAAT TTGGTTTGTATAATCCAGCATAAGTGACGAAACAGTTTGACACAACACCTTGTAAATTTCCACTATTATACGTTAGATAC GGTTTCTACTTTCAATGTAAGTTCGTAAGCGACATACTCTCAGTACTGCCAATTATACTATGGACTATTTTGGCATTGTA AAAAGCTTAGTCCACACAAAATCTCAAGCACAATATCTGCCAGATAGACACATTAACAGTTCCTCTCTATTATAG
CDS sequence (LotjaGi2g1v0402600.1) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGGCTGATGATGAAGCTTCCAGGAAGCGAAGGACCACCAGAGGCCCCGAAGCCACCGCCCGCAGCCAAGCCTTGGAGCT CCTTAAAGCCTGCCGTGGCGGTGGCCGCAGATCTGACCTCGCCGGACCCCAAATCAAGTTAGAAAACCCTATCTACGACA CCGTCCCCGAAGACGAGTACAACGCCCTCCCCCTCGCCGCCAAGCGCCGCGAGCAAGCGCAAGATTTCATCGTCGATGAT GATGGCCTCGGTTACACCCTCTCCTCTGAAGACGAATCCGATGGTGAAAATCTGGAGAATCCCAAGTGGAAGAAGGATCA CCAACCTAAACGGCCTTCTGTTTCTTCATCATCACTCTCCGCCGCCGCAGCCGGCACGCAGAGGCTGTCGTCCATGTTCA CTTCCTCGAATTTCAAGAAGAAAAGGGACGACAAGGCCAGCGAGAGCATCGTTGATGACGTTATTGCAGAGTTCGCACCG GATGAGAACGATAGGCTGAGGCGCAGAAGGGCTAAGCCATCTGCTGATTCTATTAGGGCTTCTTTGGTGTCTGGAAATTT TGCAATTGACAATGCCGAGCTAATTAGGGCTATTGAGAGCAAAGGTTGTGACTCGGGTTTAAAGCAAAAGTGCGAAAAAG AAGTAGAAGTGAATGTAAGTTCTGAAAATGTTCAGGCGCCACCACCCCTAAGTAGTGAGGGTTTGAGTGAGGATAGTGTG GTGAAGGATATTGAGATGGAAGAACGACCAGCTCCGAAAAAGGAGGTTTTCACTTTGAATGCGAAAGTTACACGAGAGGA GGATTCGGCCGCGTTGAGTGCTACTGCCGGTTGGCAGGAGGCAAAGAGTAATGCTGGAGGAGGGGAGATCAATGCTGCTG TTTCGAAGGATGATTTGTCCGCAGAATTGAGTTTAGAGGCAGATGGATCGCTGCCATTTTACATACTAGATGCCCATGAG GAGTTTTATGGAGCCAATATGGGAACCATTTATTTGTTTGGGAAGGTGAAAACAGGGGATTTGTATCAGAGTTGCTGTGT TGTTGTGAGGAACATGCAGAGATGTGTCTACGCAATCCCTAGCCGTCCTTTGCATTACACTGATGAGATAATGAATCTTG AGAAACAAGTCCAAGAGTCTCGAATTTCTCCTGCAGATTTCCATAAAAAACTGCAAGATTCTGTATCTGATATAAAGAAT GAGATAGCAAGACATCTTGTGGATCTGAACGTTTCTACCTTTACCATGGTGCCGGTTAAGAGAAAATATGCATTTGCACG AACTGATATTCCAACTGGTGAAAATTATGTGGTGAAAATAAATTATCCGTTCAAGGATTCAGTACTTCCTGTAGACCTCA AAGGAGAAAGTTTCTGTGCTCTTTTAGGGACTCATTGCAGGGCACTCGAGCTTTTTTTGATTAAAAGAAAGATAAAAGGG CCTTCATGGCTACAGGTTTCAAACTTTTCTACACGCTCAGCTTCTCAAAGGGTTAGCTGGTGCAAATTTGAAGTGACTGT TGACTCTCCTAAAGACATAAGGATTTCTCCACCTTCCTTAAAAATCACTTGCGAGATACCTCCTGTTGTTGTCGCGGCGA TAAACTTGAAAACCACCTATGAAAAGCAGAACATAAATGAAATTGTATCCGCATCCGTTGTCTGTTGCCATATGGTCAAG ATTGACACTCCTATGTTGGCTTCAGAGTGGAAAAGTCCTGGAAAGCTTACCCATTTTACTGTTATTCGTCAACTTGATGG AAATGGATTTCCTCTGGGATTCAATAAGGAGGTTAGGGACAGAAACACAAAAGCAGGGTCCAATGTTGTGTATCTTAAAA ACAGTGAAAGTGCTTTGTTAGATTGTCTGATGTTAGAATTACACAAGTTGGATAGTGATGTCCTTGTTGGACATAATATT TCTGGACTTGACCTGGATGTCCTTCTCCACAGATCCCAGGCTTGCAAAGTACCGAGCAGCAAGTGGTCTAAATTAGGTCG TCTCAACCGTTCTACGATGCCTAAGCTTTACAGAAGAAGAAAAACCTTTGGTTTTGGAGTTGATCCTGGTATCATGTCTT GTATTGCTGGTCGGCTTCTTTGTGATACCCATCTGAGTTCCCGTGATCTATTAAAGGAGGTTAGTTATTCCCTAACTCAG CTTGCAAAAACACAGCTGAACAAGTTTCGGAAGGAAGTTGCTCCACTTGGCATTCCAAAAATGTTCCAAACAGCAGAGTC CCTAATGGAGCTTATTGAACACGGTGAAACAGATGCATGGTTGTCTATGGAACTCATGTTTCATTTGAATATTCTTCCGC TCACACGTCAGCTGGCTAATATAAGTGGTAATCTGTGGGGAAAAACTCTTCAGGGCGCTCGTGCACAAAGTGTGGAGTAT CTTTTGTTGCATGCTTTCCATGCAAAGAAATATATTGTGCCAGACAAGTTTTCAAATCATGCAAAAGAAACAAAATTGAC AAAACGCAGAGTAACTCACGGTGTTGATGATGGCAACTTTGATGAAGCAGATATTGATGATGGAATTGGAAACTACCATA ACGATGCTTCTGAAAGTATTCAGAAGAAAAGCAAGAAGGCTTCTTCCTATGCCGGGGGGCTGGTTTTAGAGCCAAAGAAG GGTCTTTATGACAAATATATATTGCTTCTGGACTTTAATAGCCTTTATCCTTCTATCATTCAGGAATACAATATCTGCTT CACAACCGTTGAAAGATCTTTGGATGGATCTTTTCCTTGTCTACCTTCTAGTAAAACAACTGGAGTCTTGCCAGAGTTGC TGGAAAATCTGGTTGAAAGGAGGAAAATGGTAAAGTCATGGATGAAGGCTGCATCTGGTCTTTATTATCAGCAACTGGAA ATTCGGCAACAAGCACTGAAGCTTACTGCAAACAGTATGTATGGTTGCCTGGGATTTTCCAATTCCAGATTTTATGCAAA GCCACTAGCTGAGCTCATAACCCTACAAGGAAGGGAGATATTGCAGAGTACTGTTGATCTAGTTCAAAATAACTTGAATT TAGAGGTGATCTATGGCGATACTGATTCAATAATGATTTACAGTGGGCTAGATGATATTGGGAAAGCAAAGGCATTAGCT GGAAAAGTTATTCAAGAGGTCAATAAGAAATATAGGTGCTTGGAAATTGATCTTGATGGTTTGTACAAGAGGATGCTCCT TCTTAAGAAAAAGAAGTATGCTGCTCTAAAGGTGCAGTTTAAAGATGGAAGTACCCCATATGAGGTTATTGAACGTAAAG GTCTTGACATTGTTCGTCGTGACTGGAGCTTATTAGCTAAAGAATTGGGAGATTTTTGCTTGACTCAAATTTTGTCGGGA GGGTCATGTGAAGATGTGGTTGAATCAATTCACAGCTCTCTCATGAAGGTGCAAGAGGAGATGAAGAACGGTCAAGTACC ATTGGAAAAATATGTCATCACAAAGACATTGAATAGTCCTGATGCCAAAAGCCAGCCACATGTTCTTGTGGCACAAAGAT TGAAGCAGCAAGGTTACTCCTCTGGTTGCTCTATTGGTGATACCATCCCTTATGTAATTTGCTATGAGCAGGGTGGTAGT TCAGGCAGTGCAACGGGTATTGCTCAACGTGCCAGACATCCTGACGAACTAAAACAAGAACAGGGGACATGGCTAATTGA CATTGATTACTATTTATCACAGCAGATTCATCCCGTGGTATCACGTCTTTGTGCACCAATTCAGGGCACAAGCCCAGAAA GACTGGCTGAGTGTTTAGGGCTTGACACATCAAAGTTTCAACATAAATCAAGCGAAGCTTCAAGTGTTGATCTTACAAGC TCACTCATGTTTGCTGCTGATGACCAGGAGAGGTATCGGGGATGTGAGCCGTTGGTCTTGTCATGCCCCAGCTGCTCTGG TACTATTGACTGCCCACATGTGTTAAAATCCAGTGAAAAGCCATCCAGTTCAGGCACGGAGGAATCTGACTATAATTTTT GGCGTAAGCTTTGCTGTCCTAAATGCCAAGAAAATGGGGGTGGTAGAATTTCTCCTGCAATGATCGCCAATCAGGTCAAA AGACAAGCAGAGAAATTTGTTTTAATGTATTATAGAGGTTCATTAATGTGCGACGACGAGACGTGTAAGCACACAACGCG AAGTATCAGCCTTCGGTTGGTTGGTGATTCTGAAAGCGGAACTGTTTGTCCAAATTATCCTCGCTGCAATGGGCGACTCT ACAGAAAGTACACTGAAGCAGACTTGTACAAGCAACTCTCATATTTCTGCCATGTATTCGACACTGTTAGTTGTATAGAT AAGTTGGAGGCAAAATCTAGGATAACGGTAGAGAAAGAGTTGATCAAAATTAGGCCGATAGTTGATCCAATAGCATCAAC AGTACAGAAGATCAGGGACCGTTGTGCCTATGGTTGGGTGAAGTTGGAGGACCTGACCATTACAGCATAA
Protein sequence (LotjaGi2g1v0402600.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
MADDEASRKRRTTRGPEATARSQALELLKACRGGGRRSDLAGPQIKLENPIYDTVPEDEYNALPLAAKRREQAQDFIVDD DGLGYTLSSEDESDGENLENPKWKKDHQPKRPSVSSSSLSAAAAGTQRLSSMFTSSNFKKKRDDKASESIVDDVIAEFAP DENDRLRRRRAKPSADSIRASLVSGNFAIDNAELIRAIESKGCDSGLKQKCEKEVEVNVSSENVQAPPPLSSEGLSEDSV VKDIEMEERPAPKKEVFTLNAKVTREEDSAALSATAGWQEAKSNAGGGEINAAVSKDDLSAELSLEADGSLPFYILDAHE EFYGANMGTIYLFGKVKTGDLYQSCCVVVRNMQRCVYAIPSRPLHYTDEIMNLEKQVQESRISPADFHKKLQDSVSDIKN EIARHLVDLNVSTFTMVPVKRKYAFARTDIPTGENYVVKINYPFKDSVLPVDLKGESFCALLGTHCRALELFLIKRKIKG PSWLQVSNFSTRSASQRVSWCKFEVTVDSPKDIRISPPSLKITCEIPPVVVAAINLKTTYEKQNINEIVSASVVCCHMVK IDTPMLASEWKSPGKLTHFTVIRQLDGNGFPLGFNKEVRDRNTKAGSNVVYLKNSESALLDCLMLELHKLDSDVLVGHNI SGLDLDVLLHRSQACKVPSSKWSKLGRLNRSTMPKLYRRRKTFGFGVDPGIMSCIAGRLLCDTHLSSRDLLKEVSYSLTQ LAKTQLNKFRKEVAPLGIPKMFQTAESLMELIEHGETDAWLSMELMFHLNILPLTRQLANISGNLWGKTLQGARAQSVEY LLLHAFHAKKYIVPDKFSNHAKETKLTKRRVTHGVDDGNFDEADIDDGIGNYHNDASESIQKKSKKASSYAGGLVLEPKK GLYDKYILLLDFNSLYPSIIQEYNICFTTVERSLDGSFPCLPSSKTTGVLPELLENLVERRKMVKSWMKAASGLYYQQLE IRQQALKLTANSMYGCLGFSNSRFYAKPLAELITLQGREILQSTVDLVQNNLNLEVIYGDTDSIMIYSGLDDIGKAKALA GKVIQEVNKKYRCLEIDLDGLYKRMLLLKKKKYAALKVQFKDGSTPYEVIERKGLDIVRRDWSLLAKELGDFCLTQILSG GSCEDVVESIHSSLMKVQEEMKNGQVPLEKYVITKTLNSPDAKSQPHVLVAQRLKQQGYSSGCSIGDTIPYVICYEQGGS SGSATGIAQRARHPDELKQEQGTWLIDIDYYLSQQIHPVVSRLCAPIQGTSPERLAECLGLDTSKFQHKSSEASSVDLTS SLMFAADDQERYRGCEPLVLSCPSCSGTIDCPHVLKSSEKPSSSGTEESDYNFWRKLCCPKCQENGGGRISPAMIANQVK RQAEKFVLMYYRGSLMCDDETCKHTTRSISLRLVGDSESGTVCPNYPRCNGRLYRKYTEADLYKQLSYFCHVFDTVSCID KLEAKSRITVEKELIKIRPIVDPIASTVQKIRDRCAYGWVKLEDLTITA
Data for domain prediction are obtained with InterProScan, and merged with InterPro data obtained from the EB-eye REST service.
Prediction algorithm | Identifier | Start | End | Length | E-value | InterPro ID |
---|---|---|---|---|---|---|
MobiDBLite | 1 | 16 | 16 | - | – | |
MobiDBLite | 1 | 22 | 22 | - | – | |
PANTHER | 7 | 1486 | 1480 | 0.0 | – | |
Pfam | 25 | 93 | 69 | 2.4E-13 | ||
MobiDBLite | 80 | 126 | 47 | - | – | |
MobiDBLite | 95 | 111 | 17 | - | – | |
MobiDBLite | 112 | 126 | 15 | - | – | |
SUPERFAMILY | 308 | 814 | 507 | 3.17E-63 | ||
TIGRFAM | 309 | 1244 | 936 | 6.6E-237 | – | |
Gene3D | 313 | 510 | 198 | 3.7E-60 | – | |
Pfam | 343 | 719 | 377 | 4.7E-27 | ||
Gene3D | 353 | 479 | 127 | 3.7E-60 | – | |
CDD | 527 | 777 | 251 | 8.40793E-81 | – | |
Gene3D | 527 | 840 | 314 | 1.6E-106 | ||
SMART | 527 | 1030 | 504 | 9.8E-119 | ||
Pfam | 786 | 1247 | 462 | 6.4E-117 | ||
SUPERFAMILY | 810 | 1261 | 452 | 2.61E-115 | ||
CDD | 862 | 1262 | 401 | 0.0 | – | |
Gene3D | 875 | 1076 | 202 | 5.1E-75 | ||
PRINTS | 887 | 900 | 14 | 1.9E-11 | ||
Gene3D | 927 | 973 | 47 | 5.1E-75 | – | |
PRINTS | 963 | 975 | 13 | 1.9E-11 | ||
PRINTS | 1016 | 1024 | 9 | 1.9E-11 | ||
ProSitePatterns | 1018 | 1026 | 9 | - | ||
Coils | 1044 | 1064 | 21 | - | – | |
Gene3D | 1095 | 1276 | 182 | 3.0E-61 | ||
Gene3D | 1285 | 1474 | 190 | 3.2E-50 | ||
Pfam | 1287 | 1485 | 199 | 2.5E-45 |
GO predictions are based solely on the InterPro-to-GO mappings published by EMBL-EBI, which are in turn based on the mapping of predicted domains to the InterPro dataset. The InterPro-to-GO mapping was last updated on , while the GO metadata was last updated on .
GO term | Namespace | Name | Definition | Relationships |
---|---|---|---|---|
Molecular function | Nucleotide binding | Interacting selectively and non-covalently with a nucleotide, any compound consisting of a nucleoside that is esterified with (ortho)phosphate or an oligophosphate at any hydroxyl group on the ribose or deoxyribose. | ||
Molecular function | Nucleic acid binding | Interacting selectively and non-covalently with any nucleic acid. | ||
Molecular function | DNA binding | Any molecular function by which a gene product interacts selectively and non-covalently with DNA (deoxyribonucleic acid). | ||
Molecular function | DNA-directed DNA polymerase activity | Catalysis of the reaction: deoxynucleoside triphosphate + DNA(n) = diphosphate + DNA(n+1); the synthesis of DNA from deoxyribonucleotide triphosphates in the presence of a DNA template and a 3'hydroxyl group. | ||
Biological process | DNA replication | The cellular metabolic process in which a cell duplicates one or more molecules of DNA. DNA replication begins when specific sequences, known as origins of replication, are recognized and bound by initiation proteins, and ends when the original DNA molecule has been completely duplicated and the copies topologically separated. The unit of replication usually corresponds to the genome of the cell, an organelle, or a virus. The template for replication can either be an existing DNA molecule or RNA. |
Expression pattern of LotjaGi2g1v0402600.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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